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October 25, 2021 07:14 pm GMT

Pretend You're Using A Different Linux Distribution With One Docker Command

The Why

Lots of developers use Linux, but "Linux" is a vast category. There are a lot of similarities, but a lot of differences, too. Ubuntu and Fedora look and feel pretty similar until you try to install a package - whoops, apt is a little different than dnf. Specific system settings may be stored in different places, and particular commands may be included by default in one but not the other. Then there's even more niche stuff like Arch, which you install piece by piece from a very minimal package set, or Gentoo, which is similar to Arch with the additional caveat that the user compiles all the software locally for their specific hardware. Users of these distros may end up with pretty different-looking operating systems that all fall under the broad Linux umbrella.

All of the above adhere to a structure called the Filesystem Hierarchy Standard FHS for short. This specifies the standard top-level hierarchy common to these different flavors, like /etc for configuration, /boot for bootloader files, /proc for process management, and /home for user-specific home directories. See the Wikipedia link for a more complete list. If you're a Linux user, this structure will feel familiar to you.

However, even the FHS is not universal. My personal development machine is running a super weird Linux flavor called NixOS. This fully declarative system stores every single component of functionality in a unique directory called /nix/store and maintains a web of symlinks. Software compiled for standard Linux distributions won't run on NixOS or vice versa without specifically patching the resulting executable binaries. To complicate things further, I'm pinning to the unstable channel instead of a tagged release, meaning the package set is liable to change at any time. While there are a lot of benefits, it means my local machine is fundamentally incompatible with the Linux computers I want the software I produce to run on.

The Point

I'm primarily writing code in Rust, which has powerful facilities for cross-compiling non-native targets built-in, and Nix can help me fill in the rest. This is great! From my local computer, I can produce working binaries for many different types of computers.

For example, we want to support Ubuntu 18.04, one Long-Term Support release behind the current LTS, 20.04. This is several years old by this point, and as a result, only has, for example, glibc version 2.27, instead of the current 2.34. This is crucial for compatibility, because almost every program depends on your OS providing this library and being able to use whichever version it finds.

However, how would I know that my result on my bleeding-edge NixOS box works as intended? Containers to the rescue! We can ask Docker to build an Ubuntu 18.04 container and drop us into a shell with the current filesystem available. It's kind of like the su command, except instead of switching the active user, you're changing your whole OS on the fly.

Here's the line:

$ docker run --rm -it -v $PWD:/working-dir docker.io/ubuntu:18.04root@6bb49a338644:/# cat /etc/lsb-release DISTRIB_ID=UbuntuDISTRIB_RELEASE=18.04DISTRIB_CODENAME=bionicDISTRIB_DESCRIPTION="Ubuntu 18.04.6 LTS"root@487693de818e:/# cd working-dir/root@487693de818e:/working-dir# lsCargo.lock  Cargo.toml  README.md  custom-target.json  dist  flake.lock  flake.nix  hello  hello_build  main.rs  scripts  target  x86_64-unknown-linux-gnu2.24.json  x86_64-unknown-linux-musldynamic.json  zigroot@7ae91a94a888:/working-dir# exit$

Perfect! The /working-dir directory inside your new Ubuntu 18.04 container now has the contents of whichever directory you were in when you ran this command. That's the -v $PWD:/working-dir part. The $PWD variable returns the current working directory, and after the colon, you provide a location in the new container to mount this directory.

As far as any software inside is concerned, it's running in a standard Ubuntu installation. This lets me quickly verify that my program's cross-compiled, binary-patched version runs as expected on this target environment. When you're done, just type exit to return to your native shell. The -it flag made the container interactive, and the --rm flag will clean up the Docker container when it quits.

You can check out the Docker Hub or quay.io for other available docker containers to spin up.

This tip works with any tool that supports the Docker API, in addition to Docker itself. I'm running it via Podman, and it works the same way.

Now you can use whatever crazy environment you want and still responsibly ensure whatever you're compiling will work as intended for your users.

Cover image photo by Braydon Anderson on Unsplash


Original Link: https://dev.to/deciduously/pretend-youre-using-a-different-linux-distribution-with-one-docker-command-45k1

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